The devices a kernel provides for accessing serial devices are
typically called ttys. This is an abbreviation for Teletype,
which used to be one of the major manufacturers of terminals in the
early days of Unix. The term is used nowadays for any character-based data
terminal. Throughout this chapter, we will use the term exclusively to
refer to kernel devices.

distinguishes three classes of ttys: (virtual) consoles,
pseudo-terminals (similar to a two-way pipe, used by application such as
X11), and serial devices. The latter are also counted as ttys, because
they permit interactive sessions over a serial connection; be it from a
hard-wired terminal or a remote computer over a telephone line.

Ttys have a number of configurable parameters which can be set using the
ioctl(2) system call. Many of them apply only to serial devices,
since they need a great deal more flexibility to handle varying types of
connections.

Among the most prominent line parameters are the line speed and parity.
But there are also flags for the conversion between upper and lower case
characters, of carriage return into line feed, etc. The tty driver may
also support various line disciplines which make the device
driver behave completely different. For example, the SLIP driver for
is implemented by means of a special line discipline.

There is a bit of ambiguity about how to measure a line's speed. The
correct the term is Bit rate, which is related to the line's transfer
speed measured in bits per second (or bps for short). Sometimes, you hear
people refer to it as the Baud rate, which is not quite correct.
These two terms are, however, not interchangeable. The Baud rate
refers to a physical characteristic of some serial device, namely the
clock rate at which pulses are transmitted. The bit rate rather
denotes a current state of an existing serial connection between two
points, namely the average number of bits transferred per second. It
is important to know that these two values are usually different, as
most devices encode more than one bit per electrical pulse.